Mates toE=mc 2 and to the Heisenberg uncertainty relations

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Foundations of Physics 6 (1):101-106 (1976)
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Abstract

E=mc 2 is found to be a special case ofE=σ ±1cn, where σ is any one of four susceptibilities, namely electric, magnetic, gravitational, and elastic. Letl be length,t time,Δt time dilation, andΔl a measure of Fitzgerald-Lorentz contraction. A particle is stated to be the manifestation of a collection of susceptibilities which arise when(Δl)/1=(Δt)/t. Then(ΔE)/E=5 (Δt)/2t=±(Δσ)/σ. Corresponding to susceptibility, special energy particles are postulated which exhibitSU(3) symmetry, Related to the susceptibilities are five new Heisenberg uncertainty relations. Three new conservation laws for particles are proposed

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10.1007/bf00708667

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Citations of this work

Particles without quarks.A. B. Bell & D. M. Bell - 1976 - Foundations of Physics 6 (3):351-366.
New theory of superconductivity.A. B. Bell & D. M. Bell - 1978 - Foundations of Physics 8 (11-12):951-957.

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References found in this work

A highly ordered universe.A. B. Bell & D. M. Bell - 1975 - Foundations of Physics 5 (3):455-480.
Particles without quarks.A. B. Bell & D. M. Bell - 1976 - Foundations of Physics 6 (3):351-366.
Energy in a highly ordered universe.A. B. Bell & D. M. Bell - 1979 - Foundations of Physics 9 (5-6):471-477.

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